A fiber opening device comprising a feed section opening into the fiber opening section. The opening section includes a cabinet with an inner chamber, a waste removal chamber and a fiber web removal unit. The inner chamber includes a doffing roll and a contaminant collecting area located above first and second opening rolls. A main roll is located beneath and between the opening rolls and a waste removal section and a fiber web removal section are located beneath the main roll. In operation, fibers delivered into the inner chamber are first acted on by primarily one of the opening rolls which creates a tumbling action in which contaminants are dislodged and deposited into the contaminant receiving area while other fibers are picked up by the second opening roll carried to and doffed onto the main roll forming a fiber web for delivery to the fiber web removal section.
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1. An opener for opening fibers comprising:
a feed section; an opening station located beneath said feed section and including a cabinet having an inner chamber, a waste removal chamber and a fiber web removal unit; said inner chamber having on one side a doffing roll and on a second side a contaminant area, each arranged above one of first and second horizontally spaced opening rolls and a main roll located beneath said opening rolls; said waste removal chamber and said fiber web removal unit being arranged beneath said main roll and said first and second opening rolls; wherein, fibers delivered into said inner chamber are acted on by primarily a first of said opening rolls creating a tumbling action in which contaminants are dislodged and deposited into said contaminant area while fibers picked up by a second of said opening rolls are doffed onto said main roll forming a fiber web for delivery to said fiber web removal section. 18. An opener for opening fibers comprising:
a cabinet having a feed opening, an inner chamber, and a fiber web removal unit; a fiber feed arranged above said opening for feeding fibers by gravity into said inner chamber; a pair of horizontally spaced opening rolls arranged parallel and adjacent each other, said opening rolls being located in the lower area of said inner chamber; a main roll located beneath, parallel, and between said opening rolls; a plurality of channels formed between said rolls and walls of said cabinet; openings formed in certain of said walls, each said opening having a mote knife mounted therein; and, a fiber removal unit located beneath said main roll; wherein fibers fed into said inner chamber after being engaged, tumbled and opened are carried by an opening roll through a first channel to be doffed onto said main roll, said main roll carrying said fibers to said fiber removal unit where said fibers are removed for further processing. 12. An opener for opening fibers comprising:
a cabinet having a feed opening, an inner chamber, a waste removal chamber and a fiber web removal unit; a fiber feed arranged above said opening for feeding fibers by gravity into said inner chamber; a pair of horizontally spaced opening rolls arranged parallel and adjacent each other, said opening rolls being located in the lower area of said inner chamber; a main roll located beneath, parallel, and between said opening rolls; a plurality of channels formed between said rolls and walls of said cabinet; openings formed in certain of said walls forming said channels providing access to said waste removal areas, each said opening having a mote knife mounted therein; and, a fiber removal unit located beneath said main roll; wherein, fibers fed into said inner chamber after being engaged, tumbled and opened are carried by an opening roll through a first channel to be doffed onto said main roll, said main roll carrying said fibers to said fiber removal unit where said fibers are removed for further processing. 11. An opener for opening fibers comprising:
a feed station including a pre-opening section; a fiber receiving station arranged beneath said feed station and including a pair of substantially parallel and horizontally disposed opening rolls, a blending chamber and a containment receiving area; a main roll located beneath and between said first and second opening rolls; a first wall forming a channel about outer peripheries of said first opening roll and said main roll; second and third walls forming a channel about outer peripheries of said second opening roll and said main roll; and first and second waste removal openings each containing at least one mote knife arranged between said second and third walls adjacent said second opening roll and between said first and third walls adjacent said main roll; wherein fibers fed into said receiving station are contacted by said first and second opening rolls creating a tumbling action which dislodges contaminant comprising trash, broken fibers and dust from said fibers into said waste receiving area, fibers picked up by said first opening roll are doffed onto said second opening roll and carried past said first waste removal opening, where contaminants are removed, and further opening occurs, and into position to be doffed onto said main roll, said fibers are then carried past said second waste removal opening where further opening occurs as contaminants are again removed; said fibers-are then doffed from said main roll. 2. The opener of
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said one section may be removed allowing access to said doffing roll, said opening rolls and said main roll.
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8. The opener of
a doffer adjacent a lower end of said wall forming said fiber removal unit.
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The present invention is directed to a fiber opening device or a fiber opening and cleaning device, which may be used in combination with fiber cleaning and fiber blending, machines.
Fiber opening as well as fiber opening and cleaning machines are well known in the textile industry. Universally, the opening rolls and main rolls are arranged in vertical stacks and the fibers are fed along substantially horizontal paths into these rolls.
The instant invention has as an object the utilization of gravity for delivering the fibers to and away from the opening rolls and the main roll.
Another object of the invention is the provision of a fiber opening or a fiber opening and cleaning device in which the rolls may be controlled to operate in the same or in opposed directions.
Another object of the invention is a fiber opening or a fiber opening and cleaning device in which mote knives are employed to assist in the fiber cleaning and blending.
Another object of the invention is a fiber opening or a fiber opening and cleaning device in which the machine may perform a normal operation, i.e. soft opening or an intensive opening operation.
Another object of the invention is an opening and cleaning device in which mote knives co-operate with both an opening roll and the main roll to dislodge waste and loose trash, to help open the fibers and to remove broken or fused fibers.
Another object of the invention is the provision of a fiber conditioning device which operates to open fibers to the stage of a single fiber.
The invention is directed to an opener for opening and cleaning fibers, which includes a feed section, and an opening station located beneath the feed section. The opening station includes a cabinet having an inner chamber, a waste removal chamber and a fiber web removal unit. The inner chamber contains on one side a doffing roll and on an opposed side a containment collecting area. First and second opening rolls are respectively arranged beneath the doffing roll and the containment area with a main roll located beneath and between the opening rolls. The waste removal chamber and the fiber web removal unit are arranged beneath the main roll. The arrangement provides that fibers delivered into the inner chamber are acted on by primarily a first of the opening rolls which creates a tumbling action in which contaminants comprising trash, broken fibers and dust are dislodged and deposited onto said containment receiving area while fibers picked up by a second of the opening rolls are doffed onto the main roll forming a fiber web for delivery to the fiber web removal section.
The doffing roll, the opening rolls and the main roll may be controlled to rotate in a common first direction. Alternatively, the opening rolls may be controlled to operate in a different direction from the main roll.
A triangular shaped divider is located adjacent the peripheral surface of the opening rolls and the main roll creating passageways between the divider and each surface of the first and second opening rolls. The divider is adjustably positioned so that the size of the opening may be adjusted to control the airflow through the passageways to the desired volumes.
The opening rolls and the main roll are horizontally arranged with the opening rolls being adjacent each other and the main roll located beneath and between the opening rolls.
The inner chamber includes a first wall forming a channel about the upper outer periphery of the second opening roll, and a second wall forming a channel along the lower periphery of the second opening roll and the upper outer periphery of the main roll. An opening between opposed ends the first and second walls forms a duct for waste removal from fibers picked up and carried by the second opening roll along the channel. A mote knife is arranged in the opening adjacent the second wall. The mote knife acts to assist in the removal of broken fibers and trash into the duct and away from the fibers engaged with the opening roll and moving toward the main roll. The mote knife also assists with fiber opening.
The inner chamber is formed in sections. A first section or quadrant capable of carrying the doffing roll and an opening roll, is removably attached with the housing. This section when removed allows access into the chamber, the doffing roll, the opening rolls and the main roll.
The inner chamber includes a wall extending adjacent an outer upper periphery of the main roll and about an outer periphery of the first opening roll. This wall forms a channel between itself and the roll peripheries. An air doffer is arranged adjacent the lower end of this wall forming a fiber removal section.
The waste removal section is arranged beneath the main roll and includes an opening in which a plurality of mote knives is provided. The mote knives act to dislodge waste, loose or broken fibers and dust from the fiber web and also helps in opening unopened fibers.
The opening machine includes a feed station having a pre-opening section with a fiber receiving station arranged beneath the feed station. The receiving station includes a chamber which includes a pair of substantially parallel and horizontally disposed opening rolls, and a waste receiving area. A main roll is located beneath and between the opening rolls.
A first wall forms a channel about the outer peripheries of a first opening roll and the main roll. Second and third walls form a channel about the outer peripheries of the second opening roll and the main roll. There are provided first and second waste removal openings, each of which contains at least one mote knife. In operation, the opening rolls engage the incoming fibers, creating a tumbling action, which dislodges contaminants which include trash, broken fibers, dust, etc., to the containment receiving area. Fibers picked up by a first opening roll are doffed onto the second opening roll and carried past the first waste removal opening, where further opening occurs as trash and broken fibers are removed. The fibers engaged with the opening roll are carried into position to be doffed onto the main roll where they are then carried past the second waste removal opening. Here trash and broken fibers are again removed and the fibers are further opened. The fibers are then doffed from the main roll and removed from the opening machine for further processing.
An opener for opening and cleaning fibers which includes a cabinet having a feed opening, an inner chamber, a waste removal chamber and a fiber web removal unit. A fiber feed is arranged above the opening for feeding fibers by gravity into the chamber. A pair of horizontal opening rolls are arranged parallel and adjacent each other in the lower area of the chamber. A main roll is located beneath, parallel, and between the various opening rolls. A plurality of channels is formed between the rolls and the walls of the cabinet. Openings formed in certain of these walls form the channel, which provide access to the waste removal areas. Each of these openings has a mote knife mounted therein.
A fiber removal channel or area is located beneath the main roll. Fibers fed into the channel on the main roll are removed into the fiber removal unit and removed for processing.
The cabinet includes a removable quadrant, which may carry an opening roll and a doffing roll. The quadrant along with one of an opening roll and the main roll form a first channel.
The opening rolls and the main roll may be covered with wire angled in the same direction. Alternatively, the wire on at least certain of the rolls may be angled in a direction opposite that of the adjacent roll.
The construction designed to carry out the invention will hereinafter be described, together with other features thereof.
The invention will be more readily understood from a reading of the following specification and by reference to the accompanying drawings forming a part thereof, wherein an example of the invention is shown and wherein:
Turning to the drawings,
Opening chamber 22 is formed in opener cabinet 20 below beater roll 18. Opening chamber 22 includes a pair of opening rolls 24, 26 which are mounted on opposite sides of chamber 22 along parallel and horizontal axes and in adjacent positions.
Chamber 22, as best seen in
Divider 38, as best seen in
Inner chamber 22 includes a first wall 40 forming the outer limits of receiving area 32 which extends about the outer periphery of doffing roll 34 and downwardly and about the upper outer periphery of opening roll 26. A second wall. 42 is slightly spaced from the lower end of wall 40 and extends about the outer lower periphery of opening roll 26 and the upper outer periphery of main roll 36.
A third wall 46 is provided on the opposite side of chamber 22. Wall 46 is located to extend about the upper outer periphery of main roll 36, the outer periphery of opening roll 24 and for the outer periphery of receiving area 30.
Between lower ends of walls 42 and 46 is formed the main trash removal duct or opening 48 which opens into the trash collecting and removal area 50. Trash or waste removal equipment of usual type may be provided in area 50.
Fiber removal duct 52 is arranged adjacent the lower end of wall 46 and acts to remove the opened fibers from the opening machine for further processing. An air current in the direction of the arrow doffs the fiber web off of roll 36 and into duct 52.
First duct or opening 44, opens into contaminant receiving area 50. A first mote knife 54 is positioned adjacent the upper end of wall 42 and extends into opening 44. Main duct or opening 48, which is located between the lower ends of walls 42, 46 is provided with a plurality of mote knives 56 each extending into the opening. The mote knives act to engage loose and broken fibers along with the fiber web carried by rolls 26 or 36 and assist in the opening process along with the removal of contaminants from the web through the openings 44, 48. Contaminants include trash, short or broken fibers and dust.
It is noted that sections of walls 40, 42 may be removeably or pivotally attached to cabinet 20. This arrangement is best illustrated in
In another arrangement as shown in
Turning again to
The fibers are now carried into channel C formed between wall 42 and rolls 26, 36. As the fibers near main roll 36, which doffs them from roll 26, the centrifugal forces along with the rotational air currents tend to dislodge certain fibers from teeth 26a creating a tumbling action in area D. This action further loosens impediments in the fibers and further opens and blends the fibers. All fibers are eventually picked up by teeth 36a of roll 36 and carried past main duct 48. As the fibers move past duct 48 a plurality of mote knives 56 engage the fibers forming a web carried on roll 36 again dislodging trash, broken fibers, and other impediments while further blending the fibers. The dislodged contaminants fall into collecting area 50 and are eventually removed by any usual means.
Roll 36 carries the remaining web of opened and cleaned fibers to removal duct 52 where they are doffed by air moving in the direction of the arrow through the duct and removed for further processing. It is noted that other systems, such as a doffer roll, could be used to remove the processed fibers from roll 36 and into the removal duct.
If desired a separator or wall 58 may be provided beneath roll 36 separating collecting area from the area 52'. This would insure that no collected contaminants are drawn from area 50 through channel 52 along with the opened and cleaned fibers.
In the arrangement described, all roll wires are angled in the opposite direction when they pass an adjacent roll, which provides for an intense fiber opening.
Should a less intensive or normal fiber opening be desired, the wire directions and direction of rotation between the main roll and the opening rolls are arranged in same directions as shown in FIG. 1.
It is to be understood that the instant arrangement could be incorporated into carding operations in the formation yarns and non-wovens.
While preferred arrangements of the invention has been described using specific terms, such description is for illustrative purposes only, and it is to be understood that changes and variations may be made without departing from the spirit or scope of the following claims.
Patent | Priority | Assignee | Title |
7032273, | May 12 2003 | Fiber mixing and opening machine | |
8496114, | Jun 14 2012 | Uster Technologies AG | Trash separator |
8875897, | Jun 14 2012 | Uster Technologies AG | Trash separator |
Patent | Priority | Assignee | Title |
3829934, | |||
4240180, | Feb 07 1979 | Rando Machine Corporation | Fiber feeding apparatus for carding machines and the like |
4854013, | Apr 07 1987 | Hergeth Hollingsworth GmbH | Device for fine-opening and cleaning fiber material, etc. |
4858278, | Apr 07 1987 | Hergeth Hollingsworth GmbH | Apparatus for cleaning and opening textile fiber material |
5018245, | Jun 01 1989 | Apparatus for opening and mixing staple cotton | |
5033165, | Aug 02 1988 | Trutzschler GmbH & Co. KG | Apparatus for opening and cleaning fiber material |
5303455, | Nov 13 1990 | Trutzschler GmbH & Co. KG | Apparatus for making a fiber lap |
5375298, | Jul 02 1991 | Japan Vilene Company, Ltd. | Apparatus for producing a fiber web |
5522119, | Aug 24 1993 | Trutzschler GmbH & Co. KG | Fiber web supporting device in a carding machine |
5655262, | Nov 03 1994 | MIM - MODERN TEXTILE MACHINES LTD | Apparatus for cleaning fibers |
6138326, | Nov 16 1999 | Mote knife | |
6305920, | Jan 18 1998 | Boricel Corporation | Nonwoven fibrous product forming apparatus |
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